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1.2. GRAPHS OF RELATIONS
Graphs of relations as sets in coordinate plane
Let us recall that a coordinate plane is formed by choosing two numberlines (lines where points represent real numbers) which intersect at the rightangle. Usually, one line is horizontal and the other vertical. The horizontalline is the x-axis and vertical line y-axis. The point of intersection of thetwo lines is called the origin. In a coordinate plane each point representsuniquely an ordered pair of real numbers (x, y) and each ordered pair of realnumbers is represented by a point. If a point P represents the pair (x, y)then xis called x-coordinate and y is called y-coordinate of the point P.
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1.2.1. DEFINITION.
The graph of a relation R is the set of all points (x, y) in a coordinateplane such that xis related to y through the relation R.
1.2.2. EXAMPLE. The map of Australia below graphically represents arelation since any set in a coordinate plane does it.
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Graphing relations
A relation consisting of finitely many ordered pairs of numbers could begraphed by simple plotting of points.
1.2.3. EXAMPLE. The figure below shows the graph of the relation
R= {(2, 5), (4, 3), (6, 1), (2, 7)}.
For a relation given by an equation we plot enough points to reveal theessential behavior of the graph.
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1.2.4. EXAMPLE. The figure below shows the graph of the relation
2x+ 3y = 6. The graph could be sketched by plotting the points (0, 2) and(3, 0) and connecting the points with a straight line.
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1.2.5. EXAMPLE. The figure below shows the graph of the relation
x2
+y2
= 25. The graph could be sketched by plotting the points (5, 0),(4, 3), (3, 4), (0, 5), (3, 4), (4, 3), (5, 0), (4,3), (3,4), (0,5),(3,4), (4,3) and connecting the points with a curve.
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Identifying relations given graphically
Any graph in a coordinate plane defines a relation in the following way: ifa point representing the ordered pair (x, y) lies on the graph then x is relatedtoy and if the point representing the pair (x, y) does not belong to the graphthenx is not related to y . The next example illustrates the above definition.
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1.2.6. EXAMPLE. In the figure below the graph of the letter Z in the
coordinate plane represents a relation.
The graph shows that the number 5 is related to the numbers 1, 3, 5because the vertical line passing through the point representing 5 in the x-axis intersects the graph at the points which have the y-coordinates 1, 3, 5,respectively. In the same way we see that 3 is related to 2 and 6. The number1 is not related to any number because the vertical line passing through thepoint 1 on the x-axis does not intersect the graph.
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1.2.7. EXERCISES I.
1. Exercise. Describe the relation represented by the graph below.
Go to answer1
2. Exercise. Describe the relation represented by the graph below.
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Go to answer2
3. Exercise. Describe the relation represented by the graph below.
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Go to answer3
4. Exercise. Describe the relation represented by the graph below.
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Go to answer4
5. Exercise. Describe the relation represented by the shaded region shownbelow.
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Go to answer5
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1.2.8. ANSWERS I.
1. Answer to Exercise 1. The graph represents the relation x= y.
Go back1
2. Answer to Exercise 2. The graph represents the relation x > y.
Go back2
3. Answer to Exercise 3. Since all points on the graph have the x-
coordinate equal to 2 the graph represents the relation 2 is relatedto each number y.
Go back3
4. Answer to Exercise 4. Since all points on the graph have the y-coordinate equal to 3 the graph represents the relation each number xis related to the number 3.
Go back4
5. Answer to Exercise 5. The shade region consists of all points but thepoints on the line x = y . So the graph describes the relation x isrelated to y ifx=y .
Go back5
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Finding intercepts of a graph
Obviously, when we sketch a graph in a coordinate plane, the points ofintersection of the graph with the axes are essential.
1.2.9. DEFINITION.
The x-intercepts of of a graph are the points at which the graph intersectsthe x-axis and the y-intercepts of of a graph are the points at which the graphintersects the y-axis.
1.2.10. EXAMPLE. To find the x-intercepts, let y be zero and solve forx. For the relation given by the equation 2x + y= 4 substitution y = 0 givesus x= 2 so the x-intercept is (2, 0).
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1.2.11. EXAMPLE. To find the y-intercepts, let x be zero and solve for
y. For the relation given by the equation 2x + y= 4 substitution x = 0 givesus y= 4 so the y-intercept is (0, 4).
1.2.12. EXERCISES II.
1. Exercise. Find the intercepts of the graph of the equation 16x2+9y2 =144.
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Go to answer1
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1.2.13. ANSWERS II.
1. Answer to Exercise 1.
The x-intercepts are (3, 0) and (3, 0). The y-intercepts are (4, 0) and(4, 0). Substituting y = 0 we obtain 16x2 + 9(02) = 144. It meansthat x2 = 9 and x= 3 or x= 3. The y-intercepts (0, 4) and (0,4)are obtained in the same way by substituting x = 0 and solving theequation 16(0)2 + 9y2 = 144.
Go back1
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